EP1780854A1 - Cable or pipe gland - Google Patents

Abstract

The fitting has a hollow cylinder shaped connecting piece, which is connected with a housing. A pressure unit (9) works on a seal carrier for the purpose of fitting of a seat (10) to a cable guided through the fitting or at a hose guided through the fitting. The seal carrier is functionally integrated in an external screw thread (3) of the connecting piece. The seal carrier is formed at one end of the connecting piece.

Description

The present invention relates to a cable or hose fitting comprising a connectable to a housing, substantially hollow cylindrical nozzle, a screwed to the nozzle via a first external thread of the nozzle pressure element and a sealing member having a substantially hollow cylindrical seal carrier and arranged on the inside of the carrier Poetry. The pressure element acts on the sealing element in the sense of applying the seal to a cable guided through the screw connection or to a hose guided through the screw connection.

Such a cable gland is, for example, from the DE 197 38 517 C1 known. The cable gland described there has a shield contact element, which serves for contacting a shield or ground contact of a guided through the cable gland grounding or Abschirmkabels made of metal or metallized piece. The nozzle is in turn in an electrically conductive contact with the metallic or metallized wall of a housing, for example. An electrical control cabinet.

In order to secure the cable passed through the cable gland against tensile load and seal the passage in the housing, a separate sealing element is inserted into the interior of the nozzle, which comprises a seal carrier made of a plastic and arranged on the inside of the seal carrier seal. The seal carrier has in the region of a first end a plurality of circumferentially distributed around the sealing element, extending in the axial direction to the first end of the seal carrier slats, which are pressed by screwing the pressure element on the neck radially inward. The lamellae which move radially inwardly in turn exert a pressure on the seal arranged inside the seal carrier, in particular in the region of the lamellae, which is thereby pressed onto the jacket of the cable guided through the screw connection. As a result, a displacement of the cable in the axial direction, ie in the direction of the longitudinal axis of the cable gland, made difficult and sealed in the housing when screwed onto the nozzle and tightened pressure element.

A similar structure with respect to the sealing element also has from the DE 103 49 781 A1 known Cable gland on. Also there is the sealing element as a separate component, which is inserted into the nozzle or placed on this, formed.

In addition, cable glands made of plastic are also known from the prior art, in which the seal carrier is an integral part of the nozzle. The nozzle and the sealing element, however, are functionally two completely separate components. The nozzle has a first external thread for receiving the pressure element for pressurizing the sealing element and often in the axial direction offset from the first thread, a second external thread for receiving a lock nut for fastening the nozzle in a housing opening. Also in the axial direction offset from the first external thread and functionally completely separated from the first external thread, the sealing element is formed on the neck. Overall, therefore, results in a relatively großbauende, especially in the axial direction quite long cable gland. In the known fittings, a strain relief is also achieved only by means of frictional engagement between the seal of the sealing element and the cable sheath. Therefore, only a relatively low strain relief can be achieved with the known fittings.

A disadvantage of the known cable glands made of metal and plastic is therefore that they are designed relatively large construction and in particular have a relatively large longitudinal extent. In addition, in particular, the metal fittings consist of relatively many individual parts, all of which are manufactured separately, handled separately during manufacture and transport to the customer and the customer, and all must first be assembled during the installation of the known cable glands. This results in a relatively high cost and Workload for the production, handling and installation of the known cable glands.

Based on the described prior art, the present invention has the object to provide a simple and inexpensive cable gland, which is also designed to be as small as possible, especially with the shortest possible longitudinal extension formed.

To solve this problem is proposed starting from the cable or hose fitting of the type mentioned that the seal carrier is functionally integrated into the first external thread of the nozzle. The seal carrier thus extends from a first end of the nozzle into the first external thread. The seal carrier is thus not only physically, but also functionally integrated into the socket or its first external thread. The seal carrier is the part of the nozzle which is pressed radially inwardly by the pressure element when pressurized and presses the seal on the cable sheath or the outside of a hose. The seal carrier is either made of the material used and / or of the formal design forth so that it can be plastically or elastically deformed radially inwardly at a pressurization by the pressure element. It is conceivable that the seal carrier and the actual seal are formed as an integral component.

In the cable or hose fitting according to the invention, the seal carrier is an integral part of the nozzle, whereby the number of components is reduced, which in particular brings advantages in the production, transport and installation of the screw with it. there the full functionality of a cable or hose fitting, in particular a strain relief of the cable passed through and a seal of the cable gland, is fully retained.

The term "integral component" in the context of the present invention initially includes the case where the nozzle and the seal carrier as the same component of one and the same material, with a portion of the nozzle plays the function of the seal carrier. For this purpose, this area of the nozzle must be designed in a corresponding manner so that it can accommodate the seal on its inside and that it is pressed by screwing the pressure element on the neck radially inward and the seal on the jacket of the cable passed through the screw or Hose pushes.

The phrase "integral part" but also includes the cases in which the nozzle and the seal carrier are initially formed as separate parts, but still inextricably linked together in the production, so that a single component is created, which the nozzle and the function the sealing element combines in itself. This embodiment has the advantage that the materials of nozzle and seal carrier can be optimally adapted to their respective respective function. Thus, for example, the nozzle can be made of a stable and resistant material (a first metal or plastic), whereas the seal carrier is made of an elastically deformable material (a second metal or plastic). The permanent connection between the seal carrier and the nozzle can, for example, be produced by means of welding, soldering or gluing.

Due to the fact that the seal carrier is functionally integrated into the first external thread and projects into the first external thread, the length of the cable gland or hose gland according to the invention is also reduced without any loss of functionality, thus making the gland particularly short. This means that the mounted cable or hose fitting protrudes less far from a housing to which it is mounted. In addition, the cable or hose fitting can also be mounted in tight, hard to reach positions, where the use of a cable or hose fitting was previously not possible. According to the invention therefore, the nozzle of the cable or hose fitting is formed such that the function of the seal carrier is integrated into the nozzle.

The functional integration of the seal carrier in the first external thread can be realized, for example, that on the outside of the part of the nozzle, which serves as a seal carrier, at least a part of the first external thread is formed. This part of the neck takes on the external thread on the pressure element and is pressed by the pressure element radially inward when pressurized.

The seal carrier is preferably arranged in the region of the first end of the nozzle. According to an advantageous embodiment of the present invention, it is proposed that the seal carrier comprises a plurality of lamellae distributed around the circumference of the nozzle and extending in the axial direction as far as the first end of the nozzle. The slats are moved by screwing the pressure element on the nozzle radially inward and press the seal against that through the screw passed through cable or the hose passed through. Due to the design of the seal carrier with lamellae even a relatively hard, stable and resistant material of the nozzle (metal or plastic) can be plastically or elastically deformed by the action of the pressure element.

According to a preferred embodiment of the invention, it is proposed that the first external thread is formed in the region of the first end of the neck, and that the lamellae extend from the first end of the neck into the thread. The first external thread preferably serves to receive the pressure element and, when the pressure element is screwed onto the connection piece, engages with an internal thread of the pressure element. According to this embodiment, therefore, the slats or the recesses between the slats extend into the thread. Due to the long, far reaching into the thread lamellae creates a large, because very long pressure surface which acts when pressure is applied to the lamellae by the pressure element on the seal and presses it on the cable sheath or hose. As a result, a particularly high strain relief can be achieved.

Advantageously, at least one thread of the first external thread is formed on the outside of the lamellae and then merges into the remaining part of the first external thread, which is formed on the outside of the nozzle beyond the lamellae. The first external thread is functionally assigned to the nozzle, whereas the blades are functionally assigned to the seal carrier. According to the invention, the hitherto strictly separate functions of nozzle and seal carrier are now at least partially united.

Preferably, the lamellae comprise at least three threads of the first external thread. The more threads of the first external thread are formed on the outside of the lamellae, the shorter the gland according to the invention can be formed. However, a really safe screwing the pressure element is ensured on the neck only in the part of the first external thread, which is formed on the outside of the nozzle outside of the fins. However, since when screwing the pressure element on the neck, the lamellae move radially inwardly mainly at their distal ends and the movement of the lamellae at their foot ends, where they are in communication with the rest of the nozzle, is relatively low, even during an intervention the internal thread of the pressure element with the first three threads of the first external thread of the nozzle, which are formed on the outside of the fins in the foot ends, still a secure and reliable hold of the pressure element can be ensured on the neck.

Advantageously, the lamellae have radially inwardly directed projections at the first end of the nozzle. These projections are preferably located outside of the seal disposed on the inside of the seal carrier and press when screwing the pressure element on the nozzle from the outside into the cable sheath or in the outside of the hose, and they can even dig into the sheath or hose or clinging to it. The projections thus provide additional security of the cable or hose in the screw. Thus, in addition to securing the cable or hose in the fitting by means of frictional engagement between the seal and the outside of the cable or hose, the projections effect securing of the cable or hose in the fitting by positive locking. On This way can be achieved with the cable or hose fitting according to the invention a particularly high strain relief.

According to another advantageous embodiment of the present invention, it is proposed that the seal is hollow-cylindrical and is arranged on the inside of the nozzle at least partially in the region of the slats. By a movement of the fins radially inward, the seal is thus pressed onto the outside of the cable or the hose and causes a seal of the cable or hose feedthrough and a secure fixing of the cable or the hose by means of frictional engagement.

According to a further advantageous embodiment of the present invention, it is proposed that the axial longitudinal extension of the seal and the lamellae is matched to one another such that the greater part of the longitudinal extension of the seal is in the region of the lamellae.

Advantageously, a recess for receiving the seal is formed on the inside of the nozzle. The depth of the recess is preferably selected so that the inside of the seal passes without pressure of the nozzle through the pressure element flush into the inside of the nozzle. This results in the inside of the fitting according to the invention a flat cylindrical surface through which the cable or hose can be easily passed during assembly of the screw.

In a particularly advantageous manner, the seal is arranged captive on the inside of the nozzle.

This prevents the seal being lost during transport or assembly of the cable or hose fitting according to the invention because it has to slip out of the screw connection or be handled as a separate part from the outset. The seal can, for example, be captively held on the inside of the nozzle by means of frictional engagement. Alternatively or additionally, the seal may be captively held by the formed on the inside of the fins on the inside of the fins, radially inwardly directed projections on the inside of the nozzle.

The lamellae are advantageously elastically deformable, so that when loosening and removing the pressure element from the neck again return substantially to its original position without compressive load and the clear width in the interior of the cable gland, as it existed without pressure load by the pressure element release again. As a result, an already installed screw can be opened again and the cable or hose can be moved longitudinally in it. In addition, it is possible to use the same screw several times. The nozzle can be made of any metal, for example. Brass, stainless steel or aluminum. However, the neck is preferably made of a plastic, for example. Of polyamide. The same applies to the pressure element, which can be made of either metal or plastic.

An important aspect of the present invention is the functional integration of seal carrier or lamellae and nozzles or first external thread. On the one hand, this allows a particularly short design of the screw connection and, on the other hand, leads to a particularly high strain relief.

Figur 1

eine erfindungsgemäße Kabel- oder Schlauchverschraubung gemäß einer bevorzugten Ausführungsform in einer Seitenansicht teilweise im Schnitt;

Figur 2

die Verschraubung aus Figur 1 in einer Ansicht von oben;

Figur 3

die Verschraubung aus Figur 1 in einer perspektivischen Ansicht teilweise im Schnitt;

Figur 4

einen Stutzen einer erfindungsgemäßen Kabel- oder Schlauchverschraubung in einer Seitenansicht teilweise im Schnitt;

Figur 5

den Stutzen aus Figur 4 in einer Ansicht von oben; und

Figur 6

den Stutzen aus Figur 4 in perspektivischer Ansicht, teilweise im Schnitt.

Preferred embodiments of the present invention will be explained in more detail with reference to the figures. Through the figures and the associated description of the figures, further features and advantages of the present invention result. Show it:

FIG. 1

a cable or hose fitting according to the invention according to a preferred embodiment in a side view partly in section;

FIG. 2

the screw of Figure 1 in a view from above;

FIG. 3

the screw of Figure 1 in a perspective view partially in section;

FIG. 4

a socket of a cable or hose fitting according to the invention in a side view partly in section;

FIG. 5

the nozzle of Figure 4 in a view from above; and

FIG. 6

the nozzle of Figure 4 in a perspective view, partially in section.

In Figure 1, a cable or hose fitting according to the invention is designated in its entirety by the reference numeral 1. The screw 1 comprises a hollow cylindrical nozzle 2 made of plastic, preferably made of polyamide. Of course, the nozzle 2 also made of another material, for example. Of metal, preferably made of brass, stainless steel or aluminum. The nozzle 2 includes in the area of its first End 2a a first external thread 3 and in the region of its second end 2b, a second external thread 4. Between the two threads 3, 4, a collar 5 is formed. For mounting, the nozzle 2 is so far inserted with its second end 2b in an opening 6 of a wall 7 of a housing until the collar 5 comes to rest on the housing wall 7. On the side opposite the collar 5 side of the housing wall 7, a lock nut 8 is screwed onto the second external thread 4 and the screw 1 is fixed in the housing wall 7. The locknut 8 is made of plastic, preferably polyamide. Of course, the lock nut 8 also made of another material, for example. Of metal, preferably made of brass, stainless steel or aluminum.

On the first end 2a of the nozzle 2, a pressure element 9 can be screwed, with an internal thread of the pressure element 9 with the first external thread 3 of the nozzle 2 engages. The pressure element 9 is made of plastic, preferably polyamide. Of course, the pressure element 9 also made of another material, for example. Of metal, preferably made of brass, stainless steel or aluminum. In the region of the first end 2a of the nozzle 2, a seal carrier of a sealing element is integrated, on the inside of which a seal 10 is arranged. The seal 10 is preferably made of rubber or a plastic. In the region of the first end 2a of the neck 2, a plurality of lamellae 2c distributed around the circumference of the neck 2 and extending in the axial direction as far as the first end of the neck 2 are formed. The slats 2c are better seen in Figures 4 to 6. The fins 2 c extend from the first end 2 a of the nozzle into the first external thread 3. The lamellae 2 c comprise a plurality of threads, preferably at least 3 threads, of the first external thread 3.

At the first end 2a of the neck 2 or at the distal end of the lamellae 2c, radially inwardly directed projections 2d are formed on the lamellae 2c. When the blades 2c move radially inward by pressurization by the pressing member 9, the tips of the bosses 2d press on the jacket of a cable passed through the bolt 1 or the outside of a hose passed therethrough and may even dig or grasp therein. The tips of the projections 2d are preferably formed so that a permanent damage or even destruction of the cable sheath or the hose outside is prevented if possible. By the projections 2d, a significantly higher strain relief can be achieved than in conventional fittings.

The pressure element 9 has on its inside a slope, cone-shaped surface 9a. Alternatively, the surface 9a may also be hemispherical (such as, for example) in the DE 20 2004 019 698 U1 disclosed) or otherwise formed. The seal 10 is arranged in a recess 2e on the inside of the nozzle 2 in the region of the slats 2c. The depth of the recess 2 e is selected such that the inside of the seal 10 and the inside of the nozzle 2 outside the recess 2 e without pressure pressure by the pressure element 9 are flush with each other.

Inside the cable or hose fitting 1, a substantially cylindrical opening 11 for receiving the cable or the hose (not shown) is formed. The opening 11 is composed essentially of corresponding openings in the Stutzten 2, in the seal 10 and in the sealing element 9. Preferably, the individual openings all have a similar diameter, so that the cable or hose without pressure load through the Pressure element 9 can be easily inserted into the opening 11.

After insertion of the cable or hose into the opening 11 and after positioning the cable or hose in the screw 1, the pressure element 9 is screwed onto the first external thread 3 of the nozzle 2. After a few threads, which are preferably formed on the outside of the slats 2c, the conical surface 9a on the inside of the pressure element 9 abuts against the distal end of the slats 9c. Due to the slope of the surface 9a, the slats 2c on further screwing the pressure element 9 on the first external thread 3 of the nozzle 2 and the resulting movement of the surface 9a in the axial direction, ie in the direction of the longitudinal axis of the screw 1, radially inward in the direction the longitudinal axis moves. In this case, the slats 2c deform elastically, so that they return after loosening and removing the pressure element 9 of the nozzle 2 back to its original position, they had held without pressure load by the pressure element. When the slats 2c move radially inward, the threads formed on the outside of the slats 2c also move radially inward and slightly disengage from the internal thread of the pressure element 9. A secure engagement between the first external thread 3 of the nozzle 2 and the Internal thread of the pressure element 9 is still ensured, however, since the internal thread - at the time of movement of the slats 2c radially inward - not only on the formed on the outside of the slats 2c threads, but also on the outside of the remaining nozzle. 2 trained further threads of the external thread 3 is guided and held.

The movement of the lamellae 2c radially inward is transmitted to the seal 10, which also moves radially inwards in the direction of the longitudinal axis of the screw connection 1. The deformation of the seal 10 is elastic, so that the seal 10 also moves back to its original position without pressurization by the pressure element 9. The pressure element 9 is screwed so far on the first external thread of the nozzle 2 until the seal 10 rests with its inside firmly against the outside of the cable or the hose. Thereby, the cable or hose is fixed by the seal 10 by means of frictional engagement in the desired position in the screw 1. In addition, the gasket 10 effects sealing of the grommet. In particular, a seal between the nozzle 2 and the outside of the cable or the hose is effected by the seal 10. A seal between the nozzle 2 and the housing wall 7 is achieved by the flat contact of the collar 5 on one side of the housing wall 7. In addition, sealing elements may, for example, be provided in the form of a sealing ring between the collar 5 and the housing wall 7.

By the movement of the slats 2c radially inward, the projections 2d abut on the outside of the cable or the hose and may even be pressed into the jacket or the insulation of the cable or into the outer surface of the hose, so that the cable or the hose In addition to the frictional fixation by the seal 10 is also fixed in a form-fitting manner by the projections 2d in the screw 1. The inventive screw 1 with the integrated in the nozzle 2 seal carrier or integrated into the nozzle 2 slats 2c results in a particularly short-fitting screw, that is, the extent of Screw 1 in its longitudinal axis is relatively short. In addition, results from the special design of the slats 2c, in particular by the provided on the inside of the slats 2c projections 2d a particularly secure fixation of the cable or the hose in the screw 1, as a high pressure on the outer surface of the cable or on the outside of the tube can be exercised. This in turn results in an extremely high strain relief.

Another special feature of the screw connection according to the invention is the relatively long slats 2c reaching far into the first external thread 3, which cause the seal 10 to rest on the outside of the cable or hose over a relatively large area viewed in particular in the longitudinal direction.

The slats 2 c extend from the first end 2 a of the connecting piece 2 into the first external thread 3. The lamellae 2c comprise a plurality of threads of the first external thread 3. In the embodiment of a neck 2 shown in Figure 4 three threads on the outside of the lamellae 2c are formed, which then in the remaining threads of the external thread 3, on the outside of the nozzle 2 outside the lamellae 2c are formed, pass over. In other words, the first 3 threads of the first external thread 3 of the nozzle 2 are interrupted by formed between the slats 2c recesses. When screwing and tightening the pressure element 9 on the nozzle 2 and in the resulting movement of the blades 2c radially inward, of course, the formed on the outside of the fins 2c upper three threads of the external thread 3 move radially inward. However, the movement of the first three threads is relatively low, so even for inwardly deformed slats 2c a sufficiently secure and reliable hold of the pressure element 9 can be ensured on the nozzle 2. In particular, by this integration of the slats 2c in the first external thread 3 of the nozzle 2, the cable or hose fitting according to the invention can be formed particularly short construction. Of course, more, but also less than the illustrated three threads of the external thread 3 may be formed on the outside of the slats 2c.

The seal 10 is arranged captive in the recess 2 e. The captive results from a frictional engagement between the outside of the seal 10 and the inside of the slats 2c. In addition, the protrusions 2d may hold the gasket 10 inside the nozzle 2 in the recess 2e.

Claims (15)

Cable or hose fitting (1) comprising a with a housing (7) connectable, substantially hollow cylindrical nozzle (2) via a first external thread (3) of the nozzle (2) screwed to this pressure element (9) and a sealing element with a essentially hollow-cylindrical seal carrier and a seal (10) arranged on the inside of the seal carrier, wherein the pressure element (9) acts on the seal carrier in the sense of abutment of the seal (10) on a cable passed through the screw connection (1) or on a through the Screwed (1) guided through hose, characterized in that the seal carrier in the first external thread (3) of the nozzle (2) is functionally integrated. Screw connection (1) according to claim 1, characterized in that the seal carrier at a first end (2a) of the nozzle (2) is formed and a plurality of circumferentially of the nozzle (2) distributed, in the axial direction to the first end ( 2a) of the nozzle (2) extending lamellae (2c). Screw connection (1) according to claim 2, characterized in that the first external thread (3) in the region of the first end (2a) of the nozzle (2) is formed and that the lamellae (2c) from the first end (2a) of the nozzle ( 2) into the external thread (3). Screw connection (1) according to claim 2 or 3, characterized in that the lamellae (2c) comprise a plurality of threads of the first external thread (3). Screw connection (1) according to one of claims 2 to 4, characterized in that the lamellae (2c) at the first end (2a) of the nozzle (2) have radially inwardly directed projections (2d). Screw connection (1) according to one of claims 1 to 5, characterized in that the seal (10) is hollow cylindrical and is arranged on the inside of the nozzle (2) at least partially in the region of the slats (2c). Screw connection (1) according to claim 6, characterized in that the axial longitudinal extent of the seal (10) and the lamellae (2c) is matched to one another such that the greater part of the longitudinal extent of the seal (10) in the region of the lamellae (2c) is. Screw connection (1) according to claim 6 or 7, characterized in that on the inside of the connecting piece (2) has a recess (2e) for receiving the seal (10) is formed. Screw connection (1) according to claim 8, characterized in that the depth of the recess (2e) is selected so that the inside of the seal (10) without pressurization of the nozzle (2) by the pressure element (9) flush with the inside of the nozzle (2) passes. Screw connection (1) according to one of claims 1 to 9, characterized in that the seal (10) is arranged captive on the inside of the nozzle (2). Screw connection (1) according to claim 10, characterized in that the seal (10) by means of frictional engagement captive on the inside of the nozzle (2) is held. Screw connection (1) according to claim 5, characterized in that the seal (10) by the projections (2d) captive on the inside of the nozzle (2) is held. Screw connection (1) according to one of claims 2 to 12, characterized in that the lamellae (2c) are elastically deformable at least radially inwardly. Screw connection (1) according to one of claims 1 to 13, characterized in that the connecting piece (2) made of plastic, in particular of polyamide. Screw connection (1) according to one of claims 1 to 13, characterized in that the connecting piece (2) consists of metal, in particular of brass.

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